BCNet: Bronchus Classification via Structure Guided Representation Learning.

Wenhao Huang, Haifan Gong, Huan Zhang, Yu Wang, Xiang Wan, Guanbin Li, Haofeng Li, Hong Shen
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Abstract

CT-based bronchial tree analysis is a key step for the diagnosis of lung and airway diseases. However, the topology of bronchial trees varies across individuals, which presents a challenge to the automatic bronchus classification. To solve this issue, we propose the Bronchus Classification Network (BCNet), a structure-guided framework that exploits the segment-level topological information using point clouds to learn the voxel-level features. BCNet has two branches, a Point-Voxel Graph Neural Network (PV-GNN) for segment classification, and a Convolutional Neural Network (CNN) for voxel labeling. The two branches are simultaneously trained to learn topology-aware features for their shared backbone while it is feasible to run only the CNN branch for the inference. Therefore, BCNet maintains the same inference efficiency as its CNN baseline. Experimental results show that BCNet significantly exceeds the state-of-the-art methods by over 8.0% both on F1-score for classifying bronchus. Furthermore, we contribute BronAtlas: an open-access benchmark of bronchus imaging analysis with high-quality voxel-wise annotations of both anatomical and abnormal bronchial segments. The benchmark is available at link1.

BCNet:通过结构引导表征学习进行支气管分类
基于 CT 的支气管树分析是诊断肺部和气道疾病的关键步骤。然而,支气管树的拓扑结构因人而异,这给支气管自动分类带来了挑战。为了解决这个问题,我们提出了支气管分类网络(Bronchus Classification Network,BCNet),这是一个结构引导的框架,它利用点云的节段级拓扑信息来学习体素级特征。BCNet 有两个分支,一个是用于节段分类的点-体素图神经网络(PV-GNN),另一个是用于体素标记的卷积神经网络(CNN)。这两个分支同时接受训练,为其共享骨干学习拓扑感知特征,而只运行 CNN 分支进行推理是可行的。因此,BCNet 保持了与 CNN 基线相同的推理效率。实验结果表明,在支气管分类的 F1 分数上,BCNet 都比最先进的方法高出 8.0% 以上。此外,我们还贡献了 BronAtlas:一个开放存取的支气管成像分析基准,其中包含解剖和异常支气管段的高质量体素注释。该基准可在 link1 上获取。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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